static void run( int i, size_t MemoryCapacity = 16000 ) { typedef typename sched_type::memory_space memory_space; enum { MinBlockSize = 64 }; enum { MaxBlockSize = 1024 }; enum { SuperBlockSize = 1u << 12 }; sched_type root_sched( memory_space() , MemoryCapacity , MinBlockSize , MaxBlockSize , SuperBlockSize ); future_type f = Kokkos::host_spawn( Kokkos::TaskSingle( root_sched ) , TestFib( root_sched, i ) ); Kokkos::wait( root_sched ); ASSERT_EQ( eval_fib( i ), f.get() ); #if 0 fprintf( stdout, "\nTestFib::run(%d) spawn_size(%d) when_all_size(%d) alloc_capacity(%d) task_max(%d) task_accum(%ld)\n" , i , int(root_sched.template spawn_allocation_size<TestFib>()) , int(root_sched.when_all_allocation_size(2)) , root_sched.allocation_capacity() , root_sched.allocated_task_count_max() , root_sched.allocated_task_count_accum() ); fflush( stdout ); #endif }
static void run( int i , size_t MemoryCapacity = 16000 ) { typedef typename policy_type::memory_space memory_space ; enum { Log2_SuperBlockSize = 12 }; policy_type root_policy( memory_space() , MemoryCapacity , Log2_SuperBlockSize ); future_type f = root_policy.host_spawn( TestFib(root_policy,i) , Kokkos::TaskSingle ); Kokkos::wait( root_policy ); ASSERT_EQ( eval_fib(i) , f.get() ); #if 0 fprintf( stdout , "\nTestFib::run(%d) spawn_size(%d) when_all_size(%d) alloc_capacity(%d) task_max(%d) task_accum(%ld)\n" , i , int(root_policy.template spawn_allocation_size<TestFib>()) , int(root_policy.when_all_allocation_size(2)) , root_policy.allocation_capacity() , root_policy.allocated_task_count_max() , root_policy.allocated_task_count_accum() ); fflush( stdout ); #endif }